Lang Li | Bio-Optical Sensing | Best Researcher Award
Assoc Prof. Dr. Lang Li, Armed Forces Medical College, China.
Dr. Lang Li is an Associate Professor at the Department of Cell Biology, Army Medical University ๐จ๐ณ. Recognized as a Bayu Young Scholar and military scientific talent ๐, he is deeply involved in vascular disease research, focusing on organ chips, stem cell therapy, and bio-optical sensing ๐ง ๐. He has published 15 SCI-indexed papers in top journals like Science Advances and Small ๐, holds two national patents ๐งพ, and manages over 2 million yuan in active research funding ๐ฐ. A member of several national academic and industry committees, he is a rising leader in regenerative medicine and biomedical innovation โ๏ธ๐ฌ.
Publication Profiles
ย Education & Experienceย
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๐ Ph.D. in Cell Biology โ Army Medical University
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๐ซ Associate Professor โ Department of Cell Biology, Army Medical University (since promotion)
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๐งช Postdoctoral Research โ Focused on vascular regeneration and neurovascular systems
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๐งฌ Researcher โ Leading roles in national and military biomedical projects
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๐งโ๐ซ Educator and Mentor โ Guiding young scholars in advanced biomedical techniques
Suitability for the Award
Dr. Lang Li, Associate Professor at the Department of Cell Biology, Army Medical University, stands out as a dynamic and visionary candidate for the Best Researcher Award. Recognized for his trailblazing research in vascular disease diagnosis, treatment, and regeneration, Dr. Li has combined bio-optical sensing, stem cell therapy, and organ-on-chip technologies to create impactful, interdisciplinary innovations that align with both national medical priorities and cutting-edge scientific advancement.
ย Professional Development
Dr. Lang Li has demonstrated exceptional growth as a biomedical scientist through active engagement in top-tier research projects, professional societies, and interdisciplinary platforms ๐๐ฌ. As an executive committee member in photoelectronics and new materials alliances, he bridges the gap between biology and technology ๐ค๐ก. His continuous participation in forums and editorial responsibilities for Acta Anatomica Sinica ๐ shows his dedication to academic excellence and knowledge sharing. Dr. Li also mentors early-career scientists and contributes to strategic military medical research, proving his commitment to national innovation and medical development ๐๏ธ๐ง .
ย Research Focusย
Dr. Lang Liโs research primarily targets the diagnosis, treatment, and regeneration of vascular diseases and injuries ๐ซ๐ง . His interdisciplinary approach integrates organ-on-a-chip technology, bio-optical sensing, stem cell therapy, and neurovascular unit regulation ๐งฌ๐ก. These cutting-edge methodologies aim to replicate physiological conditions for better diagnostics and therapeutic interventions. Dr. Li is particularly passionate about translating lab research into clinical and military applications ๐โ๏ธ. His work stands at the intersection of biomedical engineering, regenerative medicine, and neurobiology, making meaningful strides in tackling complex vascular conditions and tissue regeneration challenges ๐ฌ๐.
ย Awards & Honorsย
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๐งโ๐ฌ Scientist Discovery Award โ 3rd Flexible Optoelectronic Materials and Intelligent Sensing Development Forum
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๐ง Bayu Young Scholar โ Recognized academic talent in Southwest China
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๐ Military Young Scientific and Technological Talent โ Awarded by Army Medical University
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โค๏ธ Red Medical Talent Pool โ Army Medical University distinction
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๐ Southwest Hundred Young Academic Talent โ Regional academic recognition
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๐งช Member, Youth Working Committee โ Chinese Anatomical Society
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๐ Member, Trauma Medicine Branch โ China Association for International Medical Exchange
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๐ง Young Editorial Member โ Acta Anatomica Sinica
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๐ฌ Executive Director โ China Photoelectronic Industry Platform & New Materials Development Alliance
Publication Top Noted
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2025 โ Mesenchymal Stem Cell-Derived Mitochondrial Transfer Promotes Tip Cell Phenotype via Glutathione Metabolic Reprogramming in Stroke Mice, ACS Nano ๐ง ๐งฌ
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2025 โ Artificial Biomarker-based Feedback-regulated Personalized Precise Thrombolysis with Lower Hemorrhagic Risk, Science Advances ๐ฉธ๐ง
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2024 โ Microporous Microneedles Integrated with CARโTREM2โMacrophages for Scar Management by Regulating Fibrotic Microenvironment, Advanced Materials ๐งซ๐งฉ
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2024 โ Ultrasound-Responsive Theranostic Platform for Timely Monitoring and Efficient Thrombolysis in tPA-Resistant Thrombi, Nature Communications ๐๐งช
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2024 โ Composite Materials Combined with Stem Cells Promote Kidney Repair and Regeneration, Composites Part B: Engineering ๐งฑ๐งซ
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2023 โ Engineered Exosomes Reprogram Gli1โบ Cells to Prevent Calcification of Vascular Grafts and Pathological Vessels, Science Advances ๐๐ง
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2022 โ Water-Dispersed CsPbBrโ Nanocrystals for High-Precision Single Molecule Localization Microscopy, Nanoscale ๐ฌ๐ก
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2022 โ Wearable SERS Sensor Based on Omnidirectional Plasmonic Nanovoids Array with UltraโHigh Sensitivity, Small โ๐งฟ